Transcription

1 GUIDELINES FOR TWENTY FIRST CENTURY INSTRUCTIONAL DESIGN AND TECHNOLOGY USE: TECHNOLOGIES INFLUENCE ON THE BRAIN by JENNIFER GABRIEL B.A. University of Central Florida, 1999 A thesis submit ted in partial fulfillment of the requirements for the degree of Master of Arts in the Department of English in the College of Arts and Humanities at the University of Central Florida Orlando, Florida Spring Term 2009

2 2009 Jennifer Sheehan Gabriel ii

3 ABSTRACT The increasingly global environment has spurred the economy in the United States as well as the economies in nearly every other nation. Although the U.S. remains the world leader in the global economy, research shows that the United States is at risk of losing its place as the world leader in science and innovation. Policymakers have recognized the need for research addressing global competitiveness. President Bush signed the America Competes Act, which calls for increased investment in innovation and education to improve U.S. competitiveness and President Barack Obama has named a platform, Science, Technology and Innovation for a New Generation which will extend and prioritize the efforts to improve math and science education. K 12 U.S. students are graduating from high school unprepared to pursue degrees in science, technology, engineering and math (STEM) in college. Without STEM degrees they will be unable to pursue technology jobs after graduation. Statistics show that the U.S. is failing to produce as many graduates in STEM as other countries. In an increasingly global world, without graduates in STEM courses the U.S. is at risk of losing its position as the economic world leader. Government, industry and academia all agree that the U.S. needs to address education on a K 12 level to ensure that U.S. students are equipped with twenty first century skills to compete in a twenty first century global economy. Twenty first century students are different from students of previous generations. Researchers argue that changes in the environment, specifically an increased exposure to iii

4 technology, have changed the brains of twenty first century students; twenty first century students learn differently. However, twenty first century students are being taught with an instructional curriculum that was designed for a previous generation that did not have the same exposure to technology. This is causing a digital divide that is hindering the achievement of students. The instructional curriculum needs to be updated to meet the needs of twenty first century students. This thesis addresses this need from a technical communication perspective by arguing that the instructional design of twenty first century learning materials should be improved by adhering to guidelines for twenty first century learning characteristics and twenty first century technology use. The guidelines support a national goal to improve K 12 achievement in order to increase U.S. STEM graduates and increase the U.S. s ability to compete in a global economy. iv

5 ACKNOWLEDGMENTS I would like to thank my thesis Chair, Dr. Madelyn Flammia for going above and beyond to support me through this process. She devoted a great deal of her time and effort to help me get to this point. I would like to thank my thesis committee members, Dr. JD Applen and Dr. Kathleen Bell, for their guidance and support. I would like to thank my family, especially my dad, William Sheehan, for their continued support. I would like to thank Dr. Randall Gunter, whose passion for twenty first century learning inspired this research. I would like to thank Ian Jukes for allowing me to rely heavily on his research in twentyfirst century learning. v

6 TABLE OF CONTENTS LIST OF FIGURES... VIII CHAPTER 1: INTRODUCTION... 1 CHAPTER 2: REVIEW OF RELATED RESEARCH... 8 Twenty First Century Students in a Global World Globalization and U.S. Competitiveness U.S. Competitiveness and Education Neuroinformatics Twenty First Century Technology Use Technology Use by Young Adult The Digital Divide Technology in the Classroom Video Games in the Classroom Internet Tools in the Classroom Other Technology in the Classroom Implementing These Technologies into the Classroom Curriculum Conclusion CHAPTER 3: GUIDELINES FOR TWENTY FIRST CENTURY INSTRUCTIONAL DESIGN Twenty First Century Visual Learning Characteristics Twenty First Century Cognitive Learning Characteristics vi

9 CHAPTER 1: INTRODUCTION Whenever civilization has gone through a major technological revolution, the world has changed in profound and unsettling ways. But there is something about the flattening of the world that is going to be qualitatively different from the great changes of previous eras. Thomas Friedman, The World is Flat In the past decade and a half the world has become more globalized. Technological advancements have spurred the economy in the United States as well as the economies in nearly every other nation. Thomas Friedman describes this as the flattening of the world (49). In The World is Flat, he argues that globalization is causing the world to go from round to flat; hierarchies are being challenged from below or are transforming themselves from top down structures into more horizontal and collaborative ones (48). He argues that the flattening of the world is a fundamental shift comparable to the Industrial Revolution. This shift has leveled the playing field; other countries are becoming more competitive with the United States in terms of science and innovation. Friedman argues that there are ten factors that led to increased globalization and the flattening of the world. (49). The first factor is the fall of the Berlin wall; which spurred the growth of a free market economy. The second factor was an increase in global connectivity that was brought on with the advent of the Web and Netscape. Netscape was a powerful force, according to Friedman, because it made the Internet accessible to everyone; the Internet was no longer used only by the early adopters, those who were at the forefront of Internet use. The third force is the emergence of workflow software that allows people to transfer business 1

10 documents from one computer to another. The fourth force, Uploading, allow users to author content and collaborate in online environments. The next two forces described by Friedman are overseas outsourcing and offshoring; outsourcing is the practice of hiring an overseas company to handle a sector of a company s business practices (e.g. call centers) and offshoring is the practice of moving an entire company overseas. These two forces helped to integrate other countries into the global economy. The next force that is flattening the world is Supply Chaining. Supply chaining is the practice of using technology to streamline your production process. The next force is Insourcing, which is when one company performs a service under the name of another to lower production costs. The ninth force Friedman refers to as Informing. Informing is the use of online search engines like Google and Yahoo. With the emergence of these tools, Friedman argues, everyday people are able to in form themselves in their own language (179). Informing has helped to form global communities. Friedman refers to the last force as The Steroids. These include computing, text messaging and file sharing, voice over Internet protocol (VOIP), videoconferencing, computer graphics and wireless technology devices. As a result of the steroids, Friedman argues that engines can now talk to computers, people can talk to people, computers can talk to computers, and people can talk to computers farther, faster, more cheaply, and more easily than ever before (199). All of these forces, according to Friedman, increased globalization by enabling other countries to participate in the global economy. The United States has reaped the benefits of globalization. In Losing the Competitive Advantage: The Challenge For Science and Technology in the United States, Matthew Kazmierczak and Josh James report, that economic forces have 2

11 compelled other countries to open their markets, slash tariffs, accept foreign direct investment, buy U.S. products, and adopt U.S. technology (6). These occurrences have spurred the economy in the U.S. However, they have also spurred the economies in other countries as well. Kazmierczak and James report that increased globalization presents unprecedented challenges to American preeminence (6). Increased globalization spurs increased innovation in science and technology. As other countries adopt new technologies, they begin to develop new technologies as well. With the development of new technologies, other countries become more competitive in science and innovation. Less developed countries are often able to advance their economies at a faster rate. This phenomenon, according to Kazmierczak and James, is referred to as leapfrogging. Countries that do not already have technologies in place are able to implement the latest technologies at a lower cost than countries who need to update existing technologies. An example of the leapfrogging can be seen with the implementation of telephone service in underdeveloped countries. Kazmierczak and James discuss how it took the industrialized world nearly a decade to bring telephone service to its population with copper lines, whereas developing countries will be able to accomplish this at a fraction of the time and cost because advanced wireless and satellite technologies allow nations to leapfrog over yesterday s technology by utilizing the latest innovations (6). This leapfrog effect is enabling other countries to catch up with the U.S. in science and innovation. Another factor that is enabling other countries to catch up to the U.S. in science and innovation is advancements in education. Kazmierczak and James report that while other countries are producing more scientists and engineers at an increasing rate, the number of 3

12 students entering these fields in the United States has remained flat (7). They suggest that the reason for this is that other countries place a greater emphasis on educating science and technology workers (7). A recent documentary, 2 Million Minutes, examined science and technology education in India, China, and the United States. The documentary follows six high school students for four years of high school, which amounts to 2 million minutes. The film reports that students in China and India have a more aggressive curriculum for science and math courses than students in the U.S., and they are more motivated to learn these subjects. When interviewed, the students in India and China expressed a strong motivation to learn, especially math and science. They expressed a fascination with math and science and a desire to obtain positions in technology fields after graduation. However, the U.S. students in the documentary were more motivated by activities outside of the classroom and expressed little interest in obtaining technology jobs after graduation. The documentary received criticism for its portrayal of U.S. students. However, the documentary reports that as a result of the less aggressive curriculum and lack of motivation, U.S. students consistently score below both India and China in math and science in international comparisons. The documentary warns that that if U.S. students are unable to compete academically with students in India and China, they will be unable to compete for technology jobs in the global economy. In a global economy for companies to remain competitive they will need to hire the best and brightest, and the documentary warns that companies in the U.S. will have to rely on workers from other countries to fill technology jobs. A short video, Did You Know? created by 4

13 Karl Fisch and Scott McLeod is often referenced in discussions of U.S. competitiveness. It reinforces the challenges that U.S. students may be facing after graduation by reporting that 100% of college graduates in India in 2006 spoke fluent English. It also reported that in ten years China will be the number one English speaking country by population. This reinforces the challenge that U.S. students may be facing by illustrating that not only will students in China and India be more qualified to fill technology jobs, they will be more qualified to fill technology jobs in the United States. Fisch and McLeod call for people to pressure the school boards to provide the resources for students to become literate in the twenty first century. They also call for people to pressure elected representatives to effect changes in legislation that will better prepare students for the twenty first century global economy. Policymakers, industry executives, and educators have all joined the discussion to improve students ability to compete in a global economy. Discussions all lead to the fact that we need to improve K 12 math and science education in the U.S. The Obama administration s education agenda cites the need for reform by asserting that America faces few more urgent challenges than preparing our children to compete in a global economy (Whitehouse.gov). Under the federal education agenda, the administration vows to restore the promise of America s public education, and ensure that American children again lead the world in achievement, creativity and success (Whitehouse.gov). One of the specific goals of the education agenda is to make math and science education a national priority (Whitehouse.gov). Support at the Federal level is critical to our nation s ability to effect real change and improve education in the United States. The support that the Obama 5

14 administration has vowed to dedicate to the effort provides an opportunity for all other industry sectors to do their part to contribute. The goal of my research was to find a way to contribute to the effort from a technical communication perspective. How can the field of technical communication better prepare twenty first century students to compete in a global economy? One of the greatest changes that has resulted from increased globalization is increased innovation in science and technology. As a result, students today have more access to technologies than students of previous generations. In my research I sought to explore how increased access to technology may impact the way the students learn. Initially, I consistently came across arguments on how twenty first century students learn differently from students of previous generations as a result of constant exposure to multi media technology. To explore the impact that technology has had on twenty first century learning, I came up with three research questions: 1. How do twenty first century students learn differently than students of previous generations? 2. In what ways does incorporating multimedia into the classroom curriculum facilitate learning? 3. In what ways might the instructional design of K 12 educational texts be adapted to meet the needs of twenty first century students? Increased access to technology has changed the way twenty first century students live. They have never known a world without constant access to technology. This access enables them to find information and communicate with their piers anytime from virtually anywhere. Twenty 6

15 first century students are the first generation to be born into this anytime, anywhere access. Using technology for information gathering and communication has become the natural preference for this generation. Since technology has changed the way they interact with the world, it stands to reason that it has also changed the way they learn. This research seeks to determine what has changed about how twenty first century students process information and how they are motivated to learn. Since twenty first century students are primarily accustomed to processing information from digital mediums, they may not be accustomed to the style of non digital mediums that may be used in classrooms. This research seeks to determine if exposure to technology has changed the way twenty first century students process information and, if so, how the learning process can be adapted to address those changes. The research also looks at how technology can be implemented into the classroom to motivate students to learn. This research seeks to apply the findings directly to the field of technical communication to provide a contribution to the national effort to improve K 12 math and science education in order to better prepare students to compete in a twenty first century global economy. 7

16 CHAPTER 2: REVIEW OF RELATED RESEARCH I began my research with globalization and its impact on education and the economy in the United States. Discussions on globalization lead to discussions on the United States ability to remain competitive in an increasingly global world. Discussions on improving U.S. competitiveness lead to discussions on improving education in the U.S. Efforts are being made by industry, government and education to improve the achievement of K 12 students in the United States so that graduates are better prepared to compete with foreign nationals in an increasingly global world. I have reviewed research related to my thesis in the following four areas: Twenty First Century Students in a Global World; Neuroinformatics; Twenty First Century Technology Use; and Technology in the Classroom. The first section, Twenty First Century Students in a Global World, begins with statistical research on how globalization has increased in the past few decades. It presents arguments on how the increase in globalization is threatening the United States position as the economic world leader. Arguments on how to improve the U.S. s ability to compete in a global economy lead to arguments on the need to improve education in the U.S. Statistics on education show that the U.S. is failing to produce as many graduates in science, technology, engineering and math (STEM) as other countries. The statistics show that U.S. students are not prepared for these complex STEM subjects when they enter college. The research supports the need to address education on a K 12 level to ensure that U.S. students are prepared to pursue STEM degrees in college. 8

17 The next section, Neuroinformatics, presents neuroscientific findings on the brain s ability to change. Researchers argue that changes in the environment, specifically an increased exposure to technology, have changed the brains of twenty first century students; twenty first century students learn differently. This section presents theories, backed by experimental research, that suggest that this change in the brain is the cause of prolonged and increased exposure to technology. This section leads to the next section, Twenty First Century Technology Use. The section on Twenty First Century Technology Use presents statistics on technology use by young adults. It also discusses how this technology use has impacted the way twentyfirst century students learn; twenty first century students learn differently from students of previous generations. They are motivated by different stimuli and process information differently. This section defines some of the specific characteristics of a twenty first century learning style. It also presents arguments that suggest that these contrasting learning styles of twenty first century students and that of previous generations have created a digital divide in the classroom that is hindering the learning process. The last section of the research, Technology in the Classroom, presents different ways to implement technology in the classroom to facilitate learning. Increasing technology in the classroom is what many researchers argue will help to bridge the digital divide. The research presented in this section posits that the K 12 educational system should embrace digital natives reliance on technological mediums due to their positive effects on learning. 9

18 Twenty First Century Students in a Global World Globalization 3.0 is shrinking the world from a size small to a size tiny and flattening the playing field at the same time. the thing that gives it its unique character is the newfound power for individuals to collaborate and compete globally The World is Flat, Thomas L. Friedman Globalization and U.S. Competitiveness Globalization has increased dramatically in the past few decades. One reason for the increase is that policies on foreign trade have become less stringent, facilitating global trade and business practices. Another reason for the increase is advancements in technology that have enabled global communication, allowing different nations to share ideas and products that further innovation. This increasingly global environment has spurred the economy in the United States as well as the economies in nearly every other nation. Although the U.S. remains the world leader in the global economy, research from the Technology Association of America shows that, in recent years, the United States is at risk of losing its place as the world leader in science and innovation. In Losing the Competitive Advantage?: The Challenge for Science and Technology in the United States, Matthew Kazmierczak and Josh James argue that: Policymakers, industry executives, community leaders, teachers, and parents need to recognize that the world is changing and that we had better adapt to this increasingly competitive environment if we hope to remain at the forefront of the technology revolution. (1) Policymakers have recognized the need for research addressing global competitiveness; on August 9, 2007, former President Bush signed the America Competes Act, which calls for 10

19 increased investment in innovation and education to improve U.S. competitiveness. The goal of the legislation is to keep America the most innovative nation in the world by strengthening our scientific education and research, improving our technological enterprise, attracting the world's best and brightest workers, and providing 21st century job training (2007). This effort will be continued in the new administration. President Barack Obama has named a platform, Science, Technology and Innovation for a New Generation under which his administration will make math and science education a national priority (BarackObama.com). In a recent weekly address, while announcing his new Science and Technology Policy team, the President stated I am confident that if we recommit ourselves to discovery, if we support science education to create the next generation of scientists and engineers right here in America; if we have the vision to believe and invest in things unseen, then we can lead the world into a new future of peace and prosperity (Rochelson). His administration will support continued and increased investment in innovation and education under the America Competes Act and encourage Congress to approve funding for programs aimed at improving math and science education. Industry executives have recognized this issue as well. According to the Partnership for 21 st Century Skills Taskforce, eighty four percent of employers say K 12 schools are not doing a good job of preparing students for the workforce (Partnership ). The Partnership represents individuals from U.S. companies, organizations and educational institutions in all 50 states (Partnership ). Their efforts are informed by their position that international competition from nations with strong education systems and millions of highly educated, skilled workers roils markets and the U.S. workforce every day (4). They argue that the U.S. must 11

20 take steps to improve education at a K 12 level in order to ensure students can remain competitive in an international workforce. U.S. Competitiveness and Education Statistics from the National Science Foundation show that while the United States is the largest world economy and the fourth largest country by population, it only rank[ed] sixth in the number of bachelor degrees awarded in engineering in 2000 (Kazmierczak James ). Although high tech employment grew by fifty percent between 1990 and 2002, the number of bachelor degrees in engineering fell by six percent (19). Math and computer science degrees grew by 41 percent during this time, but included in that percentage are foreign national graduates that may need to return to their respective countries after graduation (19). In 2002, foreign nationals represented 56 percent of the engineering degrees, 45 percent of the computer science degrees and 53 percent of the math degrees that are awarded in the United States (20). This is a large number of science, technology, engineering and math (STEM) course graduates that may be forced to return home under the stipulations of U.S. immigration policy and, therefore, unable to join the U.S. high tech workforce. Without a strong high tech workforce, the U.S. is at risk of losing its lead in innovation and the development of new technologies. A report put out by the CIA s National Intelligence Council states that the greatest benefits of globalization will accrue to countries and groups that can access and adopt new technologies (13). To benefit from globalization and maintain the competitive advantage, the U.S. must ensure that U.S. students are pursuing degrees in STEM courses. 12

21 In order for students to pursue complex STEM courses in college, they must be adequately prepared for them on a K 12 level. Without a strong background in these subjects, students will be unprepared to earn technology degrees in college. They will also be unprepared to pursue technology jobs after graduation because in an information economy, the majority of jobs not just those specifically in high tech require some grounding in science and math (13). However, research suggests that the K 12 education system is inadequately preparing U.S. students to pursue degrees in STEM courses. In 2005, the Third International Mathmatics and Science Study ranked U.S. performance in math and science; at the 12 th grade level, out of twenty one countries, the U.S. ranked 19 th in math and 16 th in science. According to data from the U.S. Department of Education s National Assessment of Educational Progress (NAEP), last year in the areas of math and science only 39 percent of 4th graders and 31 percent of 8th graders tested at or above proficient (James Leary 1). Math and science proficiency must be addressed at this level to ensure that students are pursuing math and science degrees in college. Ian Jukes and Anita Dosaj argue that increased and prolonged exposure to technology has had a profound effect on the way twenty first century students learn. Technological advances have changed the way we live, do business and communicate. Twenty first century students have never known a world without multimedia communication. In Understanding Digital Kids, Ian Jukes and Anita Dosaj describe these students, those born after 1980, as digital kids (dks). They are "digital natives"; digital is their native tongue; digital immigrants or the over 30 group speak digital as a second language. They have researched, written and 13

22 communicated without the advantage of technology. As a result, digital kids are differently neurologically (2). Jukes and Dosaj argue that neuroscientific findings show that students today are fundamentally differently than previous generations in the way they access, absorb, interpret, process and use information and above all, in the way they view, interact and communicate in the modern world (2). Neuroinformatics A fairly new field of neuroscience, neuroinformatics, involves the analysis of the brain processes by use of several scanning devices including: Magnetic Resonance Imaging (MRI), Positron Emission Tomography (PET) scans and Optical Topography (OT). These devices allow the scientists to track which part of the brain is active when a subject feels an emotion, performs a task or processes information. Neuroinformatics tracks the movement of brain activity on a molecular level. In sum, the research from a digital divide perspective shows that if the brain activity of someone over 50 was compared to that of someone around 30, there would be a slight difference in the neural pathways taken to process the same information. If the brain activity of someone around 30 years old was compared to that of a digital native (born after 1980), there would be a fundamental difference (Jukes and Dosaj 14). These findings suggest that the brains of twenty first century students have changed. Prior to these fairly recent findings, neuroscientists believed that the brain did not change beyond adolescence. It was thought everyone used the same neural pathways to process information. However, in recent years, advancements in neuroscience have found this 14

23 belief to be wrong. In fact, the brain is constantly reorganizing itself structurally throughout life based on input or experience (Jukes Dosaj 13). The first evidence of the brain s ability to change itself was discovered by Dr. Michael Merzenich in Dr. Norman Doidge discusses Merzenich s findings in his book The Brain That Changes Itself. This ability of the brain to change is called neuroplasticity (Doidge xix). Doidge uses a machine metaphor to describe this phenomenon: If certain parts fail, then the other parts could sometimes take over (Doidge xix). According to Doidge, while neuroplasticity can have a positive impact on brain function, the phenomenon isn t always good news: it renders our brains not only more resourceful, but also more vulnerable to outside influences (xx). This structural reorganization of the brain caused by neuroplasticity creates a new brain map. Brain maps are the representations of how the brain is organized, so as the brain changes, the brain map order changes as well. Brain Mapping A brain map is organized typographically. This means that the map is ordered as the body itself is ordered (Doidge 65). For instance, our middle finger sits between our index finger and our ring finger. The same is true for our brain map: the map for the middle finger sits between the map for our index finger and that of our ring finger (65). The typographical nature of the brain was discovered when by Merzenich when he cut the hands of adolescent monkeys and sewed the cuts back together leaving the nerves severed. He anticipated that the wires would get crossed as the nerves regenerated and, for example, the signal of the thumb would be received in the map of the index finger. Instead, he found that the map was normal. The 15

Principles to Actions Executive Summary In 1989 the National Council of Teachers of Mathematics (NCTM) launched the standards-based education movement in North America with the release of Curriculum and

A Vision and Framework for 21st Century Teaching & Learning Every Child.Every Day How do we prepare students to be life-long learners and to master the knowledge, skills and expertise that they need to

Research and Digital Game- based Play: A Review of Martha Madison White Paper Compiled by Anne Snyder, Ph.D. Second Avenue Learning is a certified women- owned business, specializing in the creation of

What does higher education look like for the fall 2013? Every morning in Africa a gazelle wakes up. It knows it must run faster than the fastest lion or it will be killed. Every morning a lion wakes up.

Beacon s Education Program: Why it works 2101 Livingston Street Oakland, CA 94606 510.436.4466 beaconday.org Part One: Curriculum Spirals Beacon s Education Program is based upon a system which we call

Kleiman, G.M. (2004). Myths and realities about technology in k-12 schools: Five years later. Contemporary Issues in Technology and Teacher Education, 4(2), 248-253. Myths and Realities About Technology

Table of Contents Section 8: How Children Learn This section provides educators with information about educational theories and objectives and how these apply to a unit of study on the West Eugene Wetlands.

June 18, 2009 King Middle School Expeditionary Learning Planning Group 2009 Planning Steps, June 18, 2009 1. Develop a compelling topic: that targets the content and skills that students need to know at

The World Is Flat Summary The World Is Flat Summary What is the Flat World?? What is the Flat World?? Flat World Flat World In 2005, Tom Friedman coined the term Flat World in The World is Flat: A Brief

The World Wide Web Revisited Ron Owston, PhD Institute for Research on Learning Technologies York University Toronto, Canada IRLT Ten Years Ago March 1997 Educational Researcher Questions I asked in the

READY KIDS DENVER Ready Kids, Ready Families, Ready Communities Initiative A Proposal for Educational Achievement and Workforce Excellence With elections in May for a new Mayor and all thirteen City Council

Flat Classroom Wiki Analysis Worksheet Your Name Date Group # Topic ** Please refer to the objectives of each group wiki before answering the following questions. ** Use complete sentences. Explain each

Teaching with Technology: What Teachers and Students Need to Succeed The generation gap between today s traditional learners (many of whom are Millennials) and professors (many of whom are of the Boomer

A partner school of K 12, the leader in K 12 online education Welcome Dear Minnesota families, VIBE Academy is a public school using an innovative model to provide your child with the best education possible.

Instructional Design for e-learning Dr Richard Hyde Atlantic Link Ltd. Overview What is instructional design? Theories and models Choosing an approach The development process Top ten tips What is Instructional

Succeeding in a Flat World Presented at the AIAA Career Enhancement Workshop January 2007 Credit to Sources This presentation summarizes the arguments and writings of Thomas L. Friedman AIAA does not stand

Running Head: EFFECTIVE USE OF TECHNOLOGY IN EDUCATION 1 Effective Use of Technology in Education Inez Escandón The University of Texas at San Antonio EFFECTIVE USE OF TECHNOLOGY IN EDUCATION 2 Effective

Dell Connected Learning for Schools Transforming Education for the Digital Age This document was created to provide Dell s point of view for primary and secondary schools and contains the following sections:

A partner school of K 12, the leader in K 12 online education Welcome Dear Tri Cities Area families, Three Rivers Homelink is a public school using an innovative model to provide your child with the best

NWVA North Wasco Virtual Academy Exceptional Online Education for Grades K-12 A partner school of K 12, the leader in K 12 online education Welcome Dear North Wasco School District families, North Wasco

Design Philosophy Should the School Building be Part of the Pedagogy? (From the Perspective of an Architect) The futurist thinker Dr. Jonas Salk, American medical researcher and virologist, is best known

Reach Higher, AMERICA OVERCOMING CRISIS IN THE U.S. WORKFORCE EXECUTIVE SUMMARY Report of the National Commission on Adult Literacy June 2008 Council for Advancement of Adult Literacy EXECUTIVE SUMMARY

DRAFT TJ PROGRAM OF STUDIES: AP PSYCHOLOGY COURSE DESCRIPTION AP Psychology engages students in a rigorous appraisal of many facets of our current understanding of psychology. The course is based on the

Video games and learning. 1 VIDEO GAMES AS A LEARNING TOOL Position Paper Video Games as a Learning Tool John C. Olson California State University Northridge 12/16/07 Video games and learning. 2 Abstract

Universal Design for Learning: Opening the Doors to Academic Success for Students with Significant Cognitive Disabilities The present publication was developed under grant 84.373X100001 from the U.S. Department

Disrupting Class How disruptive innovation will change the way the world learns Clayton Christensen, Michael B Horn Curtis W Johnson Mc Graw Hill, 2008 Introduction This book is about how to reform the

Teachers, Teaching, and Technology Survey ID: Thank you for agreeing to participate in this study. Please be assured that all information gathered will be handled with utmost confidentiality, and respondents

Surveys What do you think is the most important aspect to develop 21 st Century mindset? Technology Professional Development Students Resources / Funds Other What strategy is key to create 21 st Century

Epidemiology Curriculum The Georgia Performance Standards are designed to provide students with the knowledge and skills for proficiency in science. The Project 2061 s Benchmarks for Science Literacy is

Chapter 1 Educational Technology in the Science Classroom Glen Bull and Randy L. Bell Technology has transformed the way in which science is conducted. Almost every aspect of scientific exploration has

The Role of ICT in Indonesian Language Learning and the Teaching of BIPA Wieke Gur, BahasaKita ICT (Information and Communication Technology) has been used in almost all fields of life, including in education.

PURDUE UNIVERSITY COOPERATIVE EXTENSION SERVICE Crawford County A LIFESPAN OF BRAIN DEVELOPMENT Developed by Carol Judd Description: Brain architecture is a process that begins early in life and continues

Instructional Design& Technology Master of Science Degree Program Whether it s in a corporate training facility or high school classroom, the instructor s role is one of the most important in our society.

Connecticut State Board of Education Hartford Position Statement on Science Education Adopted September 3, 2008 The Connecticut State Board of Education regards scientific literacy as evidence of a high-quality

Everyone Wins: Differentiation in the School Library Submitted by Carol Koechlin and Sandi Zwaan During the course of an average day teacher-librarians touch the lives of hundreds of students, teachers,

AND Therapy vs. Life Style Typically with parents hire a staff to work with their child. These therapists work with the child during scheduled therapy times. If parents work with their child, they need

Summary Briefing December 14, 2009 The Vision The Board of Regents envisions a New York where all students are prepared for college, the global economy, 21 st century citizenship, and continued learning

EVALUATION OF THE TEXAS TECHNOLOGY IMMERSION PILOT An Analysis of Baseline Conditions and First-Year Implementation of Technology Immersion in Middle Schools EXECUTIVE SUMMARY DECEMBER 2006 Prepared for

WHITEPAPER The Power of Mobile Learning in K-12: Success Stories Outside the Classroom The growing adoption of mobile technology in K-12 education is producing tangible results, enabling students to move

BLOGS IN EDUCATION Scott Huette Spring 2006 Teaching Effectiveness Program Be Free To Teach 1 BLOGS IN EDUCATION What is a Blog? From Wikipedia, the free encyclopedia A blog (or weblog) is a website in

ThisPersonal checking account lesson is designed to be for grades 9-12 Financial Literacy classes. Financial Literacy is a state graduation requirement. 1 GOALS AND OBJECTIVES: The objective of this lesson

A Tsunami of Learners Called Generation Z by Darla Rothman, Ph.D Abstract: As we look ahead to the year 2020, we recognize the necessity of preparing for a new generation of workers. This fifth generation,

What is Quality Schools Development? Why are we doing this? All students deserve quality schools in their neighborhoods that help them thrive academically, socially, and emotionally. Right now, several

This resource sponsored by Intel Education Bring Your Own Device A Presentation for Educators Objectives Define the characteristics of today s students Examine a 21st century learning environment Explore

Creating Educational Connections with Social Media Twitter and Diigo for research? Facebook for peer review? YouTube for studying media literacy? Social media has allowed for a level of interaction that

THE NEW FACE OF GAMERS Outdated gamer stereotypes have been slow to catch up with the new reality that takes gamers out of the basement and into the mainstream. JUNE 4, 2014 STUDY BY LIFECOURSE ASSOCIATES

The Poynter Institute A New Story For nearly 40 years, The Poynter Institute has inspired, educated and led generations of journalists seeking to improve their communities and society. It has changed the

Web Development Life Cycle Any software development project, a methodology should be followed to ensure project consistency and completeness. The Web development life cycle includes the following phases:

A Review of China s Elementary Mathematics Education Department of Education Taishan College Tai An, ShanDong People s Republic of China Abstract This paper provides an introduction and analysis of the

The challenges of using technology in Albanian schools Anila Shahini Teacher in Basic Education School Allambres, Allambres Berat, anilashahini@ymail.com Abstract During last year the technology has revolutionized

12 Section Two: Ohio Standards for the Teaching Profession 1 Teachers understand student learning and development and respect the diversity of the students they teach. Teachers display knowledge of how

Foreword Designing Learning for All Learners Martha L. Minow How can public policy help us envision and implement a new kind of curriculum one that expands learning opportunities for everyone rather than

Woodbury City Public Schools January Curriculum Presentation to the Board New Initiatives for 2015-16 School Year Elementary Grades Continuation of the Elementary English Language Arts Initiative 2015-16

Class of 2020: Action Plan for Education Student Bill of Rights I. Each student has the right to feel safe in and proud of a school. II. Each student deserves an engaging educational experience that provides

TEXAS RISING STAR WEBINAR SERIES: CURRICULUM AND EARLY LEARNING GUIDELINES RECORDED OCTOBER 29, 2015 NOTES The topics that will be addressed during these webinars include: 1. The General Overview: Curriculum

Research into competency models in arts education Paper presented at the BMBF Workshop International Perspectives of Research in Arts Education, Nov. 4 th and 5 th, 2013. Folkert Haanstra, Amsterdam School

DEPARTMENT OF EDUCATION Funding Highlights: Provides $77.4 billion. The Budget includes a significant increase for K-12 education, while making tough choices to put the Pell Grant program on a sustainable

DEPARTMENT OF EDUCATION Funding Highlights: Provides $77.4 billion. The Budget includes a significant increase for K-12 education, while making tough choices to put the Pell Grant program on a sustainable

Internet Marketing Professor, College of Business, San Francisco State University (William Perttula interviewed by Theodor Valentin Purc rea) The trend toward internet marketing has been going on since

Supporting English Language Learners Through Technology SUMMARY English language learners benefit from the reinforcement of vocabulary and concepts through pictures, graphics and video. They also benefit

Ten Trends Affecting the Field of Instructional Design and Technology Robert Reiser Associate Dean, College of Education Distinguished University Teaching Professor and Robert M. Morgan Professor of Instructional

1 Cellular Phones as a primary communications device: What are the implications for a global community? Bill Clark Claflin University, Orangeburg, SC Abstract Recent statistics show that more individuals

Assignment: Research Experiment Instructor Guide UNIT: PSYCHOLOGICAL RESEARCH Standards that Apply to this Assignment National Standards for High School Psychology Curricula August 2005 Standard Area IA:

Instructional Technology Philosophy Do not train a child to learn by force or harshness; but direct them to it by what amuses their minds, so that you may be better able to discover with accuracy the peculiar

High School Psychology Kansas Course Code # 04254 The American Psychological Association defines Psychology as the study of the mind and behavior. The discipline embraces all aspects of the human experience

STEM CURRICULUM AND SOLUTIONS Courses, Resources, and Support to Prepare Your Students for Their Future Helping schools and districts strengthen STEM education Without a doubt, it s a national priority.